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>An Experimental Investigation of Cutting Temperature and Tool Wear in 2 Dimensional Ultrasonic Vibrations Assisted Micro-Milling
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An Experimental Investigation of Cutting Temperature and Tool Wear in 2 Dimensional Ultrasonic Vibrations Assisted Micro-Milling
Two dimensional Ultrasonic vibration assisted milling (2D UVAM) well knows process that involved in high tech system to generate ultra range of frequency applied to the milling process. More industries nowadays become aware taking this opportunity to improve their productivity without decreasing their product accuracies. This paper investigate a comparative machining between UVAM and conventional machining (CM) in tool wear and cutting temperature in milling process. Micro amplitude and sine wave frequency will be generate into the workpiece jig by piezo-actuator. Thus, creating a micro gap that allow heat remove effectively with the chip produces. A more complex tool trajectory mechanics of 2D UVAM has been found during this research. The approaching the tool tip into the workpiece surfaces is affected by the amplitude displacement along the frequency applied. It is found that the tool wear was reduce and surface roughness improvement by applying the 2D UVAM compared to the CM when choosing the optimum amplitude and appropriate frequency.
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机译:二维超声波振动辅助铣削(2D UVAM)良好了解涉及高科技系统以产生施加到铣削过程的超频率范围的过程。现在更多的行业意识到借此机会提高生产力,而不会降低其产品准确性。本文研究了铣削过程中刀具磨损和切削温度的UVAM与常规加工(CM)之间的比较加工。微幅度和正弦波频率将由压电致动器产生进入工件夹具。因此,创建微间隙,使热量能够有效地与芯片产生产生。在这项研究期间发现了一个更复杂的uvam工具轨迹力学。将工具尖端进入工件表面受到施加频率的幅度位移的影响。 It is found that the tool wear was reduce and surface roughness improvement by applying the 2D UVAM compared to the CM when choosing the optimum amplitude and appropriate frequency.
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